Analyzing association of the XRCC3 gene polymorphism with ovarian cancer risk

doi:10.1155/2014/648137

Meta-Analysis

. 2014:2014:648137.

doi: 10.1155/2014/648137. Epub 2014 Jun 10.

Analyzing association of the XRCC3 gene polymorphism with ovarian cancer risk

Cunzhong Yuan¹, Xiaoyan Liu¹, Shi Yan¹, Cunfang Wang², Beihua Kong¹

Affiliations

¹ Department of Obstetrics and Gynecology, Qilu Hospital of Shandong University, Jinan, Shandong 250012, China.
² Shandong Provincial Key Laboratory of Microbiological Engineering, Qilu University of Technology, Jinan, Shandong 250000, China.

PMID: 25006581
PMCID: PMC4071988
DOI: 10.1155/2014/648137

Meta-Analysis

Analyzing association of the XRCC3 gene polymorphism with ovarian cancer risk

Cunzhong Yuan et al. Biomed Res Int. 2014.

. 2014:2014:648137.

doi: 10.1155/2014/648137. Epub 2014 Jun 10.

Authors

Cunzhong Yuan¹, Xiaoyan Liu¹, Shi Yan¹, Cunfang Wang², Beihua Kong¹

Affiliations

¹ Department of Obstetrics and Gynecology, Qilu Hospital of Shandong University, Jinan, Shandong 250012, China.
² Shandong Provincial Key Laboratory of Microbiological Engineering, Qilu University of Technology, Jinan, Shandong 250000, China.

PMID: 25006581
PMCID: PMC4071988
DOI: 10.1155/2014/648137

Abstract

This meta-analysis aims to examine whether the XRCC3 polymorphisms are associated with ovarian cancer risk. Eligible case-control studies were identified through search in PubMed. Pooled odds ratios (ORs) were appropriately derived from fixed effects models. We therefore performed a meta-analysis of 5,302 ovarian cancer cases and 8,075 controls from 4 published articles and 8 case-control studies for 3 SNPs of XRCC3. No statistically significant associations between XRCC3 rs861539 polymorphisms and ovarian cancer risk were observed in any genetic models. For XRCC3 rs1799794 polymorphisms, we observed a statistically significant correlation with ovarian cancer risk using the homozygote comparison (T2T2 versus T1T1: OR = 0.70, 95% CI = 0.54-0.90, P = 0.005), heterozygote comparison (T1T2 versus T1T1: OR = 1.10, 95% CI = 1.00-1.21, P = 0.04), and the recessive genetic model (T2T2 versus T1T1+T1T2: OR = 0.67, 95% CI = 0.52-0.87, P = 0.002). For XRCC3 rs1799796 polymorphisms, we also observed a statistically significant correlation with ovarian cancer risk using the heterozygote comparison (T1T2 versus T1T1: OR = 0.91, 95% CI = 0.83-0.99, P = 0.04). In conclusion, this meta-analysis shows that the XRCC3 were associated with ovarian cancer risk overall for Caucasians. Asian and African populations should be further studied.

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Figures

**Figure 1**
Study flow chart explaining the selection of the four articles included in the meta-analysis.

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Contribution of germline deleterious variants in the RAD51 paralogs to breast and ovarian cancers.
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References

1. Siegel R, Naishadham D, Jemal A. Cancer statistics, 2012. CA: A Cancer Journal for Clinicians. 2012;62(1):10–29. - PubMed
1. Risch HA. Hormonal etiology of epithelial ovarian cancer, with a hypothesis concerning the role of androgens and progesterone. Journal of the National Cancer Institute. 1998;90(23):1774–1786. - PubMed
1. Meindl A, Hellebrand H, Wiek C, et al. Germline mutations in breast and ovarian cancer pedigrees establish RAD51C as a human cancer susceptibility gene. Nature Genetics. 2010;42(5):410–414. - PubMed
1. Loveday C, Turnbull C, Ramsay E, et al. Germline mutations in RAD51D confer susceptibility to ovarian cancer. Nature Genetics. 2011;43(9):879–882. - PMC - PubMed
1. Yin J, Lu K, Lin J, et al. Genetic variants in TGF-β pathway are associated with ovarian cancer risk. PLoS ONE. 2011;6(9)e25559 - PMC - PubMed

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[1] Siegel R, Naishadham D, Jemal A. Cancer statistics, 2012. CA: A Cancer Journal for Clinicians. 2012;62(1):10–29. - PubMed

[2] Siegel R, Naishadham D, Jemal A. Cancer statistics, 2012. CA: A Cancer Journal for Clinicians. 2012;62(1):10–29. - PubMed

[3] Risch HA. Hormonal etiology of epithelial ovarian cancer, with a hypothesis concerning the role of androgens and progesterone. Journal of the National Cancer Institute. 1998;90(23):1774–1786. - PubMed

[4] Risch HA. Hormonal etiology of epithelial ovarian cancer, with a hypothesis concerning the role of androgens and progesterone. Journal of the National Cancer Institute. 1998;90(23):1774–1786. - PubMed

[5] Meindl A, Hellebrand H, Wiek C, et al. Germline mutations in breast and ovarian cancer pedigrees establish RAD51C as a human cancer susceptibility gene. Nature Genetics. 2010;42(5):410–414. - PubMed

[6] Meindl A, Hellebrand H, Wiek C, et al. Germline mutations in breast and ovarian cancer pedigrees establish RAD51C as a human cancer susceptibility gene. Nature Genetics. 2010;42(5):410–414. - PubMed

[7] Loveday C, Turnbull C, Ramsay E, et al. Germline mutations in RAD51D confer susceptibility to ovarian cancer. Nature Genetics. 2011;43(9):879–882. - PMC - PubMed

[8] Loveday C, Turnbull C, Ramsay E, et al. Germline mutations in RAD51D confer susceptibility to ovarian cancer. Nature Genetics. 2011;43(9):879–882. - PMC - PubMed

[9] Yin J, Lu K, Lin J, et al. Genetic variants in TGF-β pathway are associated with ovarian cancer risk. PLoS ONE. 2011;6(9)e25559 - PMC - PubMed

[10] Yin J, Lu K, Lin J, et al. Genetic variants in TGF-β pathway are associated with ovarian cancer risk. PLoS ONE. 2011;6(9)e25559 - PMC - PubMed

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Analyzing association of the XRCC3 gene polymorphism with ovarian cancer risk

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